Intraoral device holder

ABSTRACT

An intraoral device holder is provided. In some embodiments, the intraoral device holder may comprise a cavity and an occupancy configured to detect an intraoral device at least partially located within the cavity, and may further be configured to detect the absence of at least a portion of the intraoral device from the cavity. The intraoral device holder may further comprise a communication array that may be configured to transmit data corresponding to the intraoral device. In some embodiments, the occupancy sensor may be located at least partially above the floor.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/964,779, filed on 2018 Jul. 27, which is a continuation of U.S.patent application Ser. No. 15/444,009 (now U.S. Pat. No. 9,980,799),filed on 2017 Feb. 27, which is a continuation of U.S. patentapplication Ser. No. 14/882,558, filed 2015 Oct. 14, which claims thebenefit of U.S. Provisional Utility Patent Application No. 62/063,647,filed 2014 Oct. 14, all of which are herein incorporated by reference.

FIELD OF THE INVENTION

This patent specification relates to the field of intraoral deviceholders. More specifically, this patent specification relates tointraoral device holders configured to provide information correspondingto an intraoral device.

BACKGROUND

Intraoral devices are used for a variety of purposes and may includedental appliances, sleep apnea machines, retainers, dentures, partialdentures, active aligners, protraction headgear, spring aligners, andthe like. Users of these devices and appliances face similar problemsregardless of the type of devices and appliance. For instance, intraoraldevice users often face a problem of remembering to wear theirappliance. By forgetting to wear a retainer, the user may encountertreatment setbacks such as their teeth shifting or not moving correctlyrequiring a lengthy and uncomfortable treatment period.

Users may also encounter the problem of remembering where they lefttheir intraoral device. These appliances are usually expensive anddifficult to replace. Much time and energy can be wasted on looking forlost appliances. If the appliance cannot be found, in addition topossible treatment setbacks, a user may be required to pay for areplacement appliance.

For intraoral devices such as retainers, a user may have troubleremembering the amount of time they have been wearing their intraoraldevice each day. Without an accurate accounting of the amount of timethe retainer has been worn, a user may also encounter treatment setbackssuch as their teeth shifting or not moving correctly requiring a lengthyand uncomfortable treatment period.

Therefore, a need exists for novel apparatuses for reminding a user towear their intraoral device. There also exists a need for novelapparatuses for preventing the loss of intraoral devices. There is afurther need for novel apparatuses for facilitating locating intraoraldevices. Finally, there exists a need for novel apparatuses forrecording and reporting the amount of time an intraoral device is wornby a user.

SUMMARY

In some embodiments, an intraoral device holder may comprise a cavitystructured to at least partially receive an intraoral device. Theintraoral device holder may also comprise an occupancy sensor that maybe configured to detect the presence of the intraoral device that is atleast partially located within the cavity, and may also be configured todetect the absence of at least a portion of the intraoral device fromthe cavity.

In some embodiments, an intraoral device holder may comprise a cavitythat is configured and/or structured to at least partially receive anintraoral device. The intraoral device holder may further comprise anoccupancy sensor that may be configured to detect whether the intraoraldevice is at least partially located within the cavity. Still further,the intraoral device holder may comprise a communication array that maybe configured to transmit data corresponding to one or more feature ofthe intraoral device, wherein the one or more feature has been detectedwhile the intraoral device was located within the cavity.

In some embodiments, an intraoral device storage device comprises acavity that may be structured to at least partially receive an intraoraldevice, wherein the cavity may comprise a floor. The intraoral devicestorage device may also comprise an occupancy sensor that is at leastpartially located above the floor. The cavity may be further structuredso that at least a portion of the intraoral device may directly contactthe floor, when the intraoral device is at least partially positionedwithin the cavity.

BRIEF DESCRIPTION OF THE DRAWINGS

Some embodiments of the present invention are illustrated as an exampleand are not limited by the figures of the accompanying drawings, inwhich like references may indicate similar elements and in which:

FIG. 1 depicts a top perspective view of an example of an intraoraldevice holder in an open position showing insertion of an intraoraldevice into the intraoral device holder according to various embodimentsdescribed herein.

FIG. 2 illustrates a top perspective view of an example of an intraoraldevice holder in a closed position according to various embodimentsdescribed herein.

FIG. 3 shows a bottom perspective view of an example of an intraoraldevice holder in a closed position according to various embodimentsdescribed herein.

FIG. 4 depicts a top perspective view of an example of a floor accordingto various embodiments described herein.

FIG. 5 illustrates a bottom perspective view of an example of a floorassembled with some components of an intraoral device holder accordingto various embodiments described herein.

FIG. 6 shows a perspective exploded top view some of the components ofan intraoral device holder according to various embodiments describedherein.

FIG. 7 depicts a perspective exploded bottom view some of the componentsof an intraoral device holder according to various embodiments describedherein.

FIG. 8 illustrates a block diagram of some of the components of anintraoral device holder according to various embodiments describedherein.

FIG. 9 shows a block diagram of some of the components of a processingunit according to various embodiments described herein.

FIG. 10 depicts a perspective view of an example of an intraoral deviceholder in wireless communication with client devices according tovarious embodiments described herein.

DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

The terminology used herein is for the purpose of describing particularembodiments only and is not intended to be limiting of the invention. Asused herein, the term “and/or” includes any and all combinations of oneor more of the associated listed items. As used herein, the singularforms “a,” “an,” and “the” are intended to include the plural forms aswell as the singular forms, unless the context clearly indicatesotherwise. It will be further understood that the terms “comprises”and/or “comprising,” when used in this specification, specify thepresence of stated features, steps, operations, elements, and/orcomponents, but do not preclude the presence or addition of one or moreother features, steps, operations, elements, components, and/or groupsthereof.

Unless otherwise defined, all terms (including technical and scientificterms) used herein have the same meaning as commonly understood by onehaving ordinary skill in the art to which this invention belongs. Itwill be further understood that terms, such as those defined in commonlyused dictionaries, should be interpreted as having a meaning that isconsistent with their meaning in the context of the relevant art and thepresent disclosure and will not be interpreted in an idealized or overlyformal sense unless expressly so defined herein.

In describing the invention, it will be understood that a number oftechniques and steps are disclosed. Each of these has individual benefitand each can also be used in conjunction with one or more, or in somecases all, of the other disclosed techniques. Accordingly, for the sakeof clarity, this description will refrain from repeating every possiblecombination of the individual steps in an unnecessary fashion.Nevertheless, the specification and claims should be read with theunderstanding that such combinations are entirely within the scope ofthe invention and the claims.

For purposes of description herein, the terms “upper”, “lower”, “left”,“right”, “rear”, “front”, “side”, “vertical”, “horizontal”, andderivatives thereof shall relate to the invention as oriented in FIG. 1.However, one will understand that the invention may assume variousalternative orientations and step sequences, except where expresslyspecified to the contrary. Therefore, the specific devices and processesillustrated in the attached drawings, and described in the followingspecification, are simply exemplary embodiments of the inventiveconcepts defined in the appended claims. Hence, specific dimensions andother physical characteristics relating to the embodiments disclosedherein are not to be considered as limiting, unless the claims expresslystate otherwise.

New intraoral storage devices are discussed herein. In the followingdescription, for purposes of explanation, numerous specific details areset forth in order to provide a thorough understanding of the presentinvention. It will be evident, however, to one skilled in the art thatthe present invention may be practiced without these specific details.

The present disclosure is to be considered as an exemplification of theinvention, and is not intended to limit the invention to the specificembodiments illustrated by the figures or description below.

The present invention will now be described by example and throughreferencing the appended figures representing preferred and alternativeembodiments. FIGS. 1-3 depict an example of an intraoral device holder(“the case”) 100 according to various embodiments. In some embodiments,the case 100 may comprise a lid 11 and a base 12 which may betemporarily aligned and brought together as shown in FIGS. 2 and 3, toform a cavity 13 between the lid 11 and base 12 that is configured toreceive a power source 36 (FIGS. 5-8), an occupancy sensor 32 (FIG. 8),a processing unit 21 (FIGS. 8 and 9), one or more alert devices 35, 38,39 (FIGS . 7 and 8) and any other component of the case 100. In furtherembodiments, the case 100 may comprise a lid 11 and a base 12 which maybe temporarily aligned and brought together as shown in FIGS. 2 and 3,to form a cavity 13 between the lid 11 and base 12 that is configured toreceive a power source 36, an alert device 35, 38, 39, an occupancysensor 32, a processing unit 21, any other component of the case 100,and an intraoral device 200 (FIG. 1). The cavity 13 may be configured todefine a volume which is suitable for receiving an intraoral device 200such as a retainer, mouth guard, or the like. In further embodiments,the case 100 may comprise an optional hinge 14 and an optional lidrelease 15 both providing an engagement with a base 12. A hinge 14 maypivotally couple a portion of the lid 11 to the base 12 while the lidrelease 15 may removably couple another portion of the lid 11 to thebase 12. In still further embodiments, a lid 11 may comprise a lidrelease 15 and a base 12 may also comprise a lid release 15. When thelid 11 and base 12 are pivoted into a closed position 60 (FIGS. 2 and3), a first lid release 15 may be removably coupled to a second lidrelease 15 and/or to a portion of the lid 11 and/or base 12 therebyclosing off the cavity 13 and maintaining the case in a closed position60. By uncoupling a first lid release 15 from a second lid release 15and/or a portion of the lid 11 and/or base 12, portions of the lid 11may be moved away from the base 12, such as by pivoting, thereby movingthe case 100 into an open position 61 and granting access for insertionand removal of an intraoral device 200 to and from the cavity 13.

In some embodiments, a lid 11 and a base 12 may comprise a generallyrectangular prism shape with rounded corners, and when aligned andbrought together, form a cavity 13 (FIG. 3) or space between the twothat is able to receive a retainer, denture, and other like intraoraldevices 200. In other embodiments, a cavity 13, lid 11 and/or a base 12may be configured in a plurality of sizes and shapes including circularshaped, oval shaped, triangular shaped, rectangular shaped, cylindershaped, cuboid shaped, hexagonal prism shaped, triangular prism shaped,or any other geometric or non-geometric shape, including combinations ofshapes. It is not intended herein to mention all the possiblealternatives, equivalent forms or ramifications of the invention. It isunderstood that the terms and proposed shapes used herein are merelydescriptive, rather than limiting, and that various changes may be madewithout departing from the spirit or scope of the invention.

In some embodiments, one or more hinges 14 may be positioned anywhere onthe case 100 to provide a pivotal joining engagement between the lid 11and the base 12. A hinge 14 may comprise a butt hinge, butterfly hinge,flush hinge, barrel hinge, concealed hinge, continuous hinge, T-hinge,strap hinge, double-acting hinge, Soss hinge, a flexible material hinge,or any other type or style of hinge or pivotal joining method thatallows portions of a lid 11 and base 12 to be pivoted away from eachother. In further embodiments, a hinge 14 may comprise any type of hingeknown in the art, including so-called “living” hinges, which typicallycomprise a linear, relatively flexible area between two relatively morerigid components, such as a line of thin plastic between thicker plasticportions, as is well known in the art. In some embodiments, a hinge 14may comprise a spring or other tension providing device that is able tomechanically assist with the opening or closing of the lid 11. In otherembodiments, a lid 11 and base 12 may be slidably joined together with atongue and groove engagement allowing portions of a lid 11 to be slidopen and closed from the base 12. In further embodiments, a lid 11 andbase 12 may be joined with any other type of engagement that allows aportion of a lid 11 to be moved towards and away from a base 12 therebyrestricting and granting access to the cavity 13 of the case 100.

In some embodiments, one or more lid releases 15 may be positionedanywhere on the case 100 that are configured to temporarily allow ordeny a portion of a lid 11 from moving with respect to the base 12 bytemporarily engaging a portion of the lid 11 to the base 12. In furtherembodiments, a lid release 15 may comprise a pressure catch 16 that maybe configured to secure or engage a portion of the lid 11 to the base 12when a portion of the lid 11 is pressed against the base 12 and/or lidrelease 15 such as when the case 100 is in a closed position 60 (FIGS. 2and 3). By pressing on the lid release 15, when the case 100 is in aclosed position 60, the pressure catch 16 may be released allowingportions of the lid 11 to move away from the base 12 allowing the baseto be in an open position 61 as shown in FIG. 1. In other embodiments, alid release 15 may be configured to temporarily join or engage a portionof a lid 11 to a base 12 with a clasp type connection method, magneticlock type connection method, key lock type connection method, electroniclock type connection method, combination lock type connection method,push-to-lock type connection method, a turn-to-lock type connectionmethod, slide-to-lock type connection method or any other suitabletemporary connection method as one reasonably skilled in the art couldenvision to serve the same function.

As shown in the example of FIG. 1, the case 100 is illustrated in anopen position 61 with a portion of the lid 11 pivoted away from the base12 while still being engaged together at a hinge 14. The cavity 13formed between the base 12 and lid 11 is configured to receive andsecure a retainer, denture, or other like intraoral device 200. In someembodiments, the case 100 may comprise a floor 18 which may beconfigured to separate electronic components of the case 100 from anintraoral device 200 received in the cavity 13. In some embodiments, afloor 18 may be joined to or coupled to the base 12 with electroniccomponents stored between the floor 18 and the base 12. In otherembodiments, a floor 18 may be joined to or coupled to the lid 11 withelectronic components stored between the lid 11 and the floor 18. Infurther embodiments, a floor 18 may be joined or coupled to the base 12and/or lid 11 with electronic components stored between the lid 11 andthe floor 18 and/or the base 12 and the floor 18. A floor 18 may bejoined or coupled to a lid 11 or base 12 to prevent fluids and debrisassociated with an intraoral device 200 received in the cavity 13 fromreaching the electronic components of the case 100.

FIG. 4 depicts a top perspective view of an example of a floor 18according to various embodiments described herein. In some embodiments,a floor 18 may comprise or be coupled to one or more electroniccomponents such as a lid sensor 30, a control input 31, and/or anoccupancy sensor 32 (FIG. 8) which may include a sensor receiver 34,and/or a sensor emitter 33. In preferred embodiments, electroniccomponents of the floor 18 and/or coupled to the floor 18 may be waterproof and may be in electrical communication with other electroniccomponents located or stored between the lid 11 and the floor 18 and/orthe base 12 and the floor 18. Optionally, one or more sensor housings 17may be coupled to the floor 18 to provide structures for one or moresensors and other electronic components to be positioned on or within.In some embodiments, a sensor emitter 33 may be coupled in a firstsensor housing 17 and a sensor receiver 34 may be coupled within asecond sensor housing 17. The sensors 33, 34, may use infrared light todetect if an intraoral device 200 (FIG. 1) is within the cavity 13(FIG. 1) such as by detecting if the intraoral device interrupts theinfrared light. By disposing the sensors 33, 34, within the sensorhousings 17, the sensor housings 17 may act as infrared light and sensorshields.

In some embodiments, a case 100 may comprise an occupancy sensor 32(FIG. 8) which may include a sensor receiver 34 and/or a sensor emitter33 which are configured to detect an intraoral device 200 (FIG. 1). Thesensor receiver 34 may comprise an infrared light receiver or detectorand a sensor emitter 33 may comprise an infrared light emitter. Infurther embodiments, an intraoral device 200 placed proximate to asensor receiver 34 and/or a sensor emitter 33, such as in the cavity 13,may be detected as it interrupts the path of infrared light between aninfrared sensor emitter 33 and an infrared sensor receiver 34. When theinfrared light is not interrupted, the infrared sensor receiver 34 andinfrared sensor emitter 33 may be used to detect that an intraoraldevice 200 is not proximate to a sensor receiver 34 and/or a sensoremitter 33, such as not in the cavity 13.

FIGS. 5-7 illustrate examples of some electronic components of anintraoral device holder 100 (hereinafter “case”) and some optionalconfigurations that they may be assembled in, while FIG. 8 illustrates ablock diagram of some of the electronic components of a case 100according to various embodiments described herein. In some embodiments,a case 100 may comprise a circuit board 19 which may be positionedbetween a base 12 and a floor 18. In other embodiments, a circuit board19 may be positioned between a lid 11 and a floor 18. A circuit board 19may comprise and/or provide electrical communication between one or moreelectronic components such as a processing unit 21, a lid sensor 30, acontrol input 31, a sensor receiver 34, a sensor emitter 33, an alertdevice 35, 38, 39 and/or a communications array 23. In furtherembodiments, a circuit board 19 may comprise a local bus 26 which mayprovide electrical communication between one or more electroniccomponents.

In some embodiments, a circuit board 19 may comprise a printed circuitboard (PCB) which mechanically supports and electrically connectselectronic components using conductive tracks, pads and other featuresetched from copper sheets laminated onto a nonconductive substrate. PCBscan be single sided (one copper layer), double sided (two copper layers)or multi-layer. Conductors on different layers may be connected withplated-through holes called vias. In some embodiments, a circuit board19 may only comprise copper connections and no embedded components andmay be called a printed wiring board (PWB) or etched wiring board. Inother embodiments, a circuit board 19 may comprise a printed circuitassembly (PCA), printed circuit board assembly or PCB assembly (PCBA), acircuit card assembly (CCA), or a backplane assembly, or any othersuitable electrical connection and communication method includingstandard wiring and the like.

In some embodiments, a case 100 may comprise a lid sensor 30 such as amagnetic sensor that is operable to detect if the lid 11 is open,closed, and/or optionally partially opened or closed. In furtherembodiments, a lid sensor 30 may comprise a Hall effect sensor which maybe positioned on the floor 18, base 12, and/or lid 11 and which maydetect increases or decreases, and therefore proximity, in an electricfield generated by the magnetic material of a magnet 40 (FIG. 1) whichmay be complementarily positioned on the floor 18, base 12, and/or lid11 to detect if the lid 11 is open, closed, and/or partially opened orclosed. In other embodiments, a lid sensor 30 may comprise a pressureswitch, an electrical circuit, or any other method configured to detectif the lid is open, closed, or optionally not open or closed. In furtherembodiments, a case 100 may comprise a reed switch, a pressure sensor, acontact sensor, a button mount, an ambient light sensor, or any othersuitable sensor to detect if the lid 11 is open, closed, or partiallyopened or closed.

In some embodiments, a case 100 may comprise a control input 31 whichmay be configured to control a function of an electronic component. Infurther embodiments, a control input 31 may comprise an input such asturnable control knobs, depressable button type switches, slide typeswitches, rocker type switches, or any other suitable input that may beused to modulate electricity between one or more electronic componentsof the case 100 to control a function of the case 100.

In some embodiments, a case 100 may comprise an occupancy sensor 32which may include a sensor receiver 34 and/or a sensor emitter 33 whichare configured to detect if an intraoral device 200 (FIG. 1) is in thecavity 13. In further embodiments, an occupancy sensor 32 may comprisean RFID sensor receiver, a magnetic sensor receiver, an Ultravioletlight receiver, an optical receiver, or any other sensor receiver thatmay be used to detect the presence or absence of an intraoral device 200in a cavity 13. In still further embodiments, an occupancy sensor 32 maycomprise a RFID emitter, a magnetic field generating material such asmagnetic metals and permanent magnets, an Ultraviolet light emitter, anoptical light emitter or any other sensor receiver that may be used todetect the presence or absence of an intraoral device 200 in a cavity13. In even further embodiments, a case 100 may comprise a reed switch,a button mount, a force sensor, an ambient light sensor, or any othersuitable sensor to detect the presence or absence of an intraoral device200 in a cavity 13.

In some embodiments, a case 100 may comprise a power source 36, such asa rechargeable and/or replaceable battery, which may provide electricalpower to the electronic components of the case 100. A power source 36may be positioned anywhere in the case 100 such as between the floor 18and the base 12 (FIGS. 1-3). One or more wires 41, electrical clips 42,or other electrical couplings may provide electrical communicationbetween the power source 36 a circuit board 19 or local bus 26. Infurther embodiments, a case 100 may comprise a charging receiver 37which may be in electrical communication with a power source 36 such asa rechargeable battery. One or more wires 41, electrical clips 42, orother electrical couplings may also provide electrical communicationbetween a charging receiver 37 and the power source 36, circuit board19, and/or local bus 26. In still further embodiments, a chargingreceiver 37 may comprise a wireless charging receiver, such as a QiStandard Wireless charging Receiver or any other inductive charging orwireless power receiver, which may be configured to receive energythrough an inductive coupling and to electrically communicate the energyto the power source 36 or a power management microchip 43 in electroniccommunication with the charging receiver 37 allowing wireless energy toinductively charge the power source 36. In still further embodiments, acharging receiver 37 may comprise an electrical connector such as a USBconnector such as a micro-USB, mini-USB, Type A USB plug, Type B USBplug, Mini-A USB plug, Mini-B USB plug, Micro-A USB plug, Micro-B USBplug, Micro-B USB 3.0 plug, ExtMicro USB plug, Lightning plug, 30-pindock connector, Pop-Port connector, Thunderbolt plug, Firewire plug,Portable Digital Media Interface (PDMI) plug, coaxial power connectorplug, barrel connector plug, concentric barrel connector plug, tipconnector plug, or any other plug, connector, or receptacle capable ofelectrical communication.

In some embodiments, a case 100 may comprise one or more alert devicessuch as one or more sound devices 35 which may comprise a speaker whichmay be operable to produce or create one or more audible alert sounds atone or more volume levels. In further embodiments, a sound device 35 maycomprise a buzzer, a piezoelectric sound producing device, a dielectricelastomer sound producing device, a buzzer, a moving coil loudspeaker,an electrostatic loudspeaker, an isodynamic loudspeaker, apiezo-electric loudspeaker, or any other device capable of producing oneor more sounds. In further embodiments, a case 100 may comprise one ormore alert devices such as one or more vibration devices 38, lightemitting devices 39, and/or a sound devices 35 configured to relayhaptic, visual, and/or auditory alert information from a case 100 to auser. A light emitting device 39 may include a light emitting diode(LED), incandescent light bulb, halogen light bulb, laser light emitter,electroluminescent light source, neon light source, or any othersuitable light source which is able to emit light, such as constant onlight or intermittent light in one or more colors and/or intensities,viewable by a user as an alert.

In some embodiments, a case 100 may comprise one or more alert devicessuch as one or more vibrating devices 38 configured to producevibrations. In further embodiments, a vibrating device 38 may comprise along life brushless (BLDC) vibration motor, a coin or pancake vibrationmotor, an encapsulated vibration motor, an enclosed vibration motor, apager motor, an eccentric rotating mass (ERM) motor, a linear resonantactuator (LRA), a printed circuit board (PCB) mounted vibration motor,or any other electrical device capable of producing vibrations.

In some embodiments, a case 100 may comprise a communications array 23which is operable to send and receive wireless and/or wiredcommunications. In further embodiments, a communications array 23 maycomprise a Bluetooth receiver and transmitter and which enables wirelesscommunication to a network or an external access client device (FIG. 10)such as cell phones, smart phones 300A, tablet computers, laptopcomputers 300B, wearable computers such as watches, Google Glasses, etc.and the like. In other embodiments, a communications array 23 maycomprise a receiver and transmitter which enables any number of suitablewireless data communication protocols, techniques, or methodologiesincluding, without limitation: RF; IrDA (infrared); Bluetooth; Wifi;ZigBee (and other variants of the IEEE 802.15 protocol); IEEE 802.11(any variation); IEEE 802.16 (WiMAX or any other variation); DirectSequence Spread Spectrum; Near-Field Communication (NFC); FrequencyHopping Spread Spectrum; Long Term Evolution (LTE);cellular/wireless/cordless telecommunication protocols (e.g. 3G/4G,etc.); iBeacon; wireless home network communication protocols; pagingnetwork protocols; magnetic induction; satellite data communicationprotocols; wireless hospital or health care facility network protocolssuch as those operating in the WMTS bands; GPRS; proprietary wirelessdata communication protocols such as variants of Wireless USB; and anyother protocols for wireless communication.

FIG. 9 shows a block diagram of some of the components of a processingunit 21 according to various embodiments described herein. In someembodiments, a processing unit 21 may comprise a small computer on asingle integrated circuit typically used for embedded applications andpreferably comprising a processor core, memory, and programmableinput/output peripherals. Program memory in the form of NOR flash or OTPROM may also be included on chip, as well as a typically small amount ofRAM. A processing unit 21 may be used to receive input from, control, ormodulate one or more of the functions of any electronic component of thecase 100.

The processing unit 21 may be configured to trigger one or more alertsor notifications which may be produced by a component of the case 100 inresponse to an electronic communication from a communications array 23,an occupancy sensor 32, a lid sensor 30, a power source 36, and/or acontrol input 31. An alert may include audible, tactile, and visualalerts. In some embodiments, a processing unit 21 may be configured toproduce an audible alert by operating a sound device 35 to produce orcreate one or more audible sounds at one or more volume levels. In someembodiments, a processing unit 21 may be configured to produce a tactilealert by operating a sound device 35 to produce or create one or morevibrations which may vibrate the case 100 to produce a tactile alertperceptible by touch. In some embodiments, a processing unit 21 may beconfigured to produce a visual alert by operating a light emittingdevice 39 or any other type of light emitting element to produce orcreate one or more colors of light at one or more brightness intensitieswhich may illuminate to produce a visual alert.

In further embodiments, a processing unit 21 may be a digital devicethat, in terms of hardware architecture, generally includes a processor22, a data store 24, and memory 25. The processing unit 21 may be inelectrical communication with a communications array 23 and one or moreinput/output (I/O) interfaces 20, such as a lid sensor 30, control input31, occupancy sensor 32, sensor receiver 34, sensor emitter 33, sounddevice 35, power source 36, charging receiver 37, a vibration device 38,and/or a light emitting device 39. It should be appreciated by those ofordinary skill in the art that FIG. 9 depicts the processing unit 21 inan oversimplified manner, and a practical embodiment may includeadditional components and suitably configured processing logic tosupport known or conventional operating features that are not describedin detail herein.

The components (22, 23, 24, 25, 27, 28, and 30) are communicativelycoupled via a local interface 26. The local interface 26 can be, forexample but not limited to, one or more buses or other wired or wirelessconnections, as is known in the art. The local interface 26 can haveadditional elements, which are omitted for simplicity, such ascontrollers, buffers (caches), drivers, repeaters, and receivers, amongmany others, to enable communications. Further, the local interface 26may include address, control, and/or data connections to enableappropriate communications among the aforementioned components.

The processor 22 is a hardware device for executing softwareinstructions. The processor 22 can be any custom made or commerciallyavailable processor, a central processing unit (CPU), an auxiliaryprocessor among several processors associated with the processing unit21, a semiconductor-based microprocessor (in the form of a microchip orchip set), or generally any device for executing software instructions.When the processing unit 21 is in operation, the processor 22 isconfigured to execute software stored within the memory 25, tocommunicate data to and from the memory 25, and to generally controloperations of the processing unit 21 pursuant to the softwareinstructions. In an exemplary embodiment, the processor 22 may include amobile optimized processor such as optimized for power consumption andmobile applications.

The I/O interfaces 20 may include any other electronic component of thecase 100, such as a lid sensor 30, control input 31, occupancy sensor32, sensor receiver 34, sensor emitter 33, sound device 35, power source36, charging receiver 37, a vibration device 38, and/or a light emittingdevice 39 may be used to receive input from and/or for providing outputfrom the case 100. Input can be provided via, for example, a lid sensor30, control input 31, occupancy sensor 32, sensor receiver 34, sensoremitter 33, and/or charging receiver 37. System output can be providedvia a communications array 23, a light emitting device 39, a vibrationdevice 38, and/or a sound device 35. The I/O interfaces 20 can alsoinclude, for example, a charging indicator light emitting device 39 orany other type of light emitting device which may be positioned anywhereon the case 100, a serial port, a parallel port, a small computer systeminterface (SCSI), an infrared (IR) interface, a radio frequency (RF)interface, a universal serial bus (USB) interface, and the like. The I/Ointerfaces 20 can include a graphical user interface (GUI) that enablesa user to interact with the processing unit 21. Additionally, the I/Ointerfaces 20 may further include an imaging device, i.e. camera, videocamera, etc.

The memory 25 may include any of volatile memory elements (e.g., randomaccess memory (RAM, such as DRAM, SRAM, SDRAM, etc.)), nonvolatilememory elements (e.g., ROM, hard drive, etc.), and combinations thereof.Moreover, the memory 25 may incorporate electronic, magnetic, optical,and/or other types of storage media. Note that the memory 25 may have adistributed architecture, where various components are situated remotelyfrom one another, but can be accessed by the processor 22. The softwarein memory 25 can include one or more software programs, each of whichincludes an ordered listing of executable instructions for implementinglogical functions. In the example of FIG. 9, the software in the memory25 includes a suitable operating system (O/S) 27 and programs 28. Theoperating system 27 essentially controls the execution of other computerprograms, and provides scheduling, input-output control, file and datamanagement, memory management, and communication control and relatedservices. The programs 28 may include various applications, add-ons,etc. configured to provide end user functionality with the processingunit 21. For example, exemplary programs 28 may include, but not limitedto, a clock or timer program which may be configured to track input forman I/O interface 20 and to correlate the input with a time stamp or timeperiod. In a typical example, the end user typically uses one or more ofthe programs 28 to control the functions of the electronic components ofthe case 100.

FIG. 10 depicts a perspective view of an example of an intraoral deviceholder 100 in wireless communication 70 with client devices according tovarious embodiments described herein. In some embodiments, a processingunit 21 and communications array 23 may be used to record and processinput from a lid sensor 30, occupancy sensor 32, or any other sensor andto communicate the input to one or more external access client devicessuch as cell phones, smart phones 300A, computers 300B, such as tabletcomputers, laptop computers, wearable computers, and the like. In someembodiments, a processing unit 21 and communications array 23 maycommunicate the input directly to external access client 300A, 300B,devices through Bluetooth, Wifi, NFC, or other wireless communications,thereby triggering a notification such as a text message, email message,push notification, application notification, and the like on an externalaccess client device. In other embodiments, a processing unit 21 andcommunications array 23 may communicate the input over a network toexternal access client devices 300A, 300B, through Wifi, cellularcommunications, or other wireless communications, thereby triggering anotification such as a text message, email message, push notification,application notification, and the like on an external access clientdevice 300A, 300B. In further embodiments, a processing unit 21 andcommunications array 23 may communicate the input directly to externalaccess client devices 300A, 300B, and/or communicate the input over anetwork to external access client devices 300A, 300B, through Wifi,cellular communications, or other wireless communications, therebytriggering a notification such as a text message, email message, pushnotification, application notification, and the like on an externalaccess client device 300A, 300B. In still further embodiments, aprocessing unit 21 and communications array 23 may be in wiredcommunication with an external access client devices 300A, 300B, and theprocessing unit 21 may communicate the input directly to external accessclient devices 300A, 300B, thereby triggering a notification such as atext message, email message, push notification, applicationnotification, and the like on an external access client device 300A,300B.

In some embodiments, the communications array 23 may be in wirelesscommunication with an external access client device 300A, 300B, and whenthe wireless communication is broken, the processing unit 21 may triggeran audio, visual, and/or tactile alert. For example, the communicationsarray 23 may be in Bluetooth wireless communication with the smart phonedevice 300A of a user. If the user, with their smart phone device 300A,forgets and leaves the case 100 behind, the wireless communication maybe broken as the distance between the case 100 and the smart phonedevice 300A becomes too great for Bluetooth communication. Once the,wireless communication is broken, the processing unit 21 may trigger analert, such as a sound from the sound device 35, a vibration from avibration device 38, or a light from the light emitting device 39. Instill further embodiments, as the distance between the case 100 and thesmart phone device 300A approaches a distance too great for Bluetoothcommunication, the communication array may send a wireless communicationto the smart phone device 300A and the smart phone device 300A mayproduce an alert.

The processing unit 21 may comprise a clock or timer program 28 (FIG. 9)which may record the time of a sensor event, the time between sensorevents, or any other temporal parameter. The processing unit 21 may beconfigured to operate the communications array 23, sound device 35, avibration device 38, and/or a light emitting device 39 based on thetemporal data provided by the clock or timer program 28 and based onsensor data received or not received allowing the case to audibly,visually, vibrationally, and/or wirelessly communicate the temporaland/or sensor data.

In some embodiments, the microcontroller 21 may operate thecommunications array 23, light emitting device 39, sound device 35,and/or a vibration device 38 after receiving or not receiving input froma lid sensor 30. For example, the processing unit 21 may or may notreceive input from a lid sensor 30 for a period of time or at a certaintime such as a user bed time. If the lid sensor 30 does not detect thatthe lid has been opened or otherwise operated, the processing unit 21may operate the communications array 23 to send a wireless electroniccommunication to an external access client device 300A, 300B, such aswith a Bluetooth or WiFi wireless communication to notify a user thatthe lid 11 has not been opened for a period of time or at a certaintime. In further embodiments, a processing unit 21 may receive inputfrom a lid sensor 30 or any other sensor detecting if and when anintraoral device is in the cavity 13 or if and when the lid 11 has beenopened, and the processing unit 21 may operate the sound device 35 toproduce an audible sound, and/or operate the vibration device 38 toproduce vibrations to notify a user of the sensor input, and/or a lightemitting device 39 to emit light for a visual alert.

In some embodiments, the microcontroller 21 may operate thecommunications array 23, sound device 35, light emitting device 39,and/or a vibration device 38 after receiving or not receiving input froman occupancy sensor 32. For example, the processing unit 21 may receiveinput from an occupancy sensor 32 that an intraoral device 200 isdetected, such as by being in the cavity 13, for a period of time. Oncethe period of time meets or exceeds a threshold, such as meeting orexceeding the period of time for a user to eat a meal, the processingunit 21 may operate a communications array 23. After an intraoral device200 is detected, such as by being in the cavity 13, for a period oftime, the processing unit 21 may operate the communications array 23 tosend a wireless electronic communication to an external access clientdevice 300A, 300B, such as with a Bluetooth or WiFi wirelesscommunication to notify a user of the sensor input. Likewise, after theintraoral device 200 is detected, such as by being in the cavity 13, fora period of time, the processing unit 21 may operate the sound device 35to produce an audible sound, and/or operate the vibration device 38 toproduce vibrations to notify a user of the sensor input, and/or operatethe light emitting device 39 to produce a visual alert. In anotherexample, the processing unit 21 may receive input from an occupancysensor 32 that an intraoral device 200 is detected, such as by being inthe cavity 13, for a period of time such as a sleep period when the usershould be wearing the intraoral device. If the intraoral device 200 isdetected, such as by being in the cavity 13, during the sleep timeperiod, such as between 10 PM and 6 AM, the processing unit 21 mayoperate the communications array 23, sound device 35, a vibration device38, and/or a light emitting device 39, when the intraoral device 200 isdetected, such as by being in the cavity 13, during the 10 PM and 6 AMtime period.

In some embodiments, the microcontroller 21 may operate the sound device35, light emitting device 39, and/or a vibration device 38 afterreceiving or not receiving input from the communications array 23. Forexample, an external access client device 300A, 300B, may be in wirelesscommunication with the communications array 23 of the case 100. Uponreceiving a certain wireless communication or command from the clientdevice 300A, 300B, the processing unit 21 may operate the sound device35 to produce an audible alert sound, a light emitting device 39 to emitlight for a visual alert, and/or operate the vibration device 38 toproduce alert vibrations to notify a user of the location of the case100. In another example, if the wireless communication with thecommunications array 23 does not receive a wireless communication froman external access client device 300A, 300B, such as within a certainperiod of time, the processing unit 21 may operate the sound device 35to produce an audible alert sound, a light emitting device 39 to emitlight for a visual alert, and/or operate the vibration device 38 toproduce alert vibrations to notify a user of the location of the case100.

In other preferred embodiments, a processing unit 21 may receive inputfrom a wireless communications array 26, an occupancy sensor 32, lidsensor 30, and/or any other sensor detecting if an intraoral device 200is in the case 100 and may notify a user by sending a push notificationsuch as a text message, email message, and the like to a client device300A, 300B. In still further embodiments, a processing unit 21 mayreceive input from an occupancy sensor 32, lid sensor 30, or any othersensor detecting how much time and at what times an intraoral device 200is in or out of a case 100. In even further embodiments, a processingunit 21 and communications array 23 may communicate the location of thecase 100 and/or give the proximity of the case 100 to a client device300A, 300B.

While some materials have been provided, in other embodiments, theelements that comprise the case 100 such as the lid 11, base 12,electronic components 19, 20, 21, 22, 23, 25, optional hinge 14,optional lid release 15, optional pressure catch 16, and/or optionalfloor 18 may be made from durable materials such as aluminum, steel,other metals and metal alloys, wood, hard rubbers, hard plastics, fiberreinforced plastics, carbon fiber, fiber glass, resins, polymers or anyother suitable materials including combinations of materials.Additionally, one or more elements may be made from or comprise durableand slightly flexible materials such as soft plastics, silicone, softrubbers, or any other suitable materials including combinations ofmaterials. In some embodiments, one or more of the elements thatcomprise the case 100 may be coupled or connected together with heatbonding, chemical bonding, adhesives, clasp type fasteners, clip typefasteners, rivet type fasteners, threaded type fasteners, other types offasteners, or any other suitable joining method. In other embodiments,one or more of the elements that comprise the case 100 may be coupled orremovably connected by being press fit or snap fit together, by one ormore fasteners such as hook and loop type or Velcro® fasteners, magnetictype fasteners, threaded type fasteners, sealable tongue and groovefasteners, snap fasteners, clip type fasteners, clasp type fasteners,ratchet type fasteners, a push-to-lock type connection method, aturn-to-lock type connection method, slide-to-lock type connectionmethod or any other suitable temporary connection method as onereasonably skilled in the art could envision to serve the same function.In further embodiments, one or more of the elements that comprise thecase 100 may be coupled by being one of connected to and integrallyformed with another element of the case 100.

Although the present invention has been illustrated and described hereinwith reference to preferred embodiments and specific examples thereof,it will be readily apparent to those of ordinary skill in the art thatother embodiments and examples may perform similar functions and/orachieve like results. All such equivalent embodiments and examples arewithin the spirit and scope of the present invention, are contemplatedthereby, and are intended to be covered by the following claims.

What is claimed is:
 1. A case, comprising: a cavity structured to atleast partially receive a device that is transparent or translucent inat least one section thereof; and an occupancy sensor configured todetect an absence of at least a portion of the device from the cavity.2. The case of claim 1, wherein the occupancy sensor is configured todetermine the absence of at least the portion of the device from thecavity by determining that a signal received by a receiver is below athreshold difference from a calibrated level of the signal.
 3. The caseof claim 1, further comprising a lid structured to cover an opening ofthe cavity.
 4. The case of claim 3, wherein the occupancy sensor isconfigured to detect the absence of at least the portion of the devicefrom the cavity when the lid is in a closed state.
 5. The case of claim1, wherein the occupancy sensor is configured to determine the absenceof at least the portion of the device from the cavity when a detectedsignal strength of a signal being emitted from the device is below athreshold.
 6. The case of claim 1, wherein the portion of the devicebeing detected from the cavity is the section of the device that istransparent or translucent.
 7. The case of claim 1, wherein theoccupancy sensor is configured to detect the absence of at least theportion of the device from the cavity based on an electromagnetic signalemitted from the device.
 8. The case of claim 7, wherein theelectromagnetic signal emitted from the device passes through thetransparent or translucent section of the device.
 9. A case, comprising:a cavity structured to at least partially receive a device that istransparent or translucent in at least one section thereof; and anoccupancy sensor configured to detect a presence of at least a portionof the device within the cavity based on electromagnetic radiationpassing through or reflected by the transparent or translucent sectionof the device.
 10. The case of claim 9, wherein the occupancy sensor isconfigured to determine the presence of at least the portion of thedevice based on a change in amplitude of the electromagnetic radiationpassing through or reflected by the transparent or translucent sectionof the device.
 11. The case of claim 9, wherein the occupancy sensor isconfigured to determine the presence of at least the portion of thedevice within the cavity based on the frequency of the electromagneticradiation passing through or reflected by the transparent or translucentsection of the device.
 12. The case of claim 9, wherein theelectromagnetic radiation is emitted by the device.
 13. The case ofclaim 12, wherein the device does not include a battery.
 14. A case,comprising: a cavity structured to at least partially receive a device;an emitter configured to emit a first electromagnetic radiation signal;a receiver configured to receive a second electromagnetic radiationsignal; and an occupancy sensor configured to detect a presence of atleast a portion of the device within the cavity based on the receivedsecond electromagnetic radiation signal.
 15. The case of claim 14,wherein a frequency of the first electromagnetic radiation signal is thesame as a frequency of the second electromagnetic radiation signal. 16.The case of claim 14, wherein a frequency of the first electromagneticradiation signal is different than a frequency of the secondelectromagnetic radiation signal.
 17. The case of claim 14, wherein anamplitude of the first electromagnetic radiation signal is greater thanan amplitude of the second electromagnetic radiation signal.
 18. Thecase of claim 14, wherein the first electromagnetic radiation signal isconverted into the second electromagnetic radiation signal after atleast partially passing through a transparent or translucent section ofthe device.
 19. The case of claim 14, wherein the second electromagneticradiation signal is emitted by the device.
 20. The case of claim 14,wherein the first electromagnetic radiation signal is converted into thesecond electromagnetic signal after at least partially being reflectedby the device.